Abstract
In horizontal configuration, the gas-liquid intermittent flow can be plug flow or slug flow. Different works have demonstrated that the two flow patterns, despite their similarity, are differents. Thus, it is important to differentiate between them in order to develop more robust predictive models. The limit of the existing model to predict the plug-to-slug flow transition was demonstrated first. After that, 11 existing slug liquid holdup (HLS) models were used in order to test their potential utilization for predicting the plug-to-slug flow transition. Using HLS = 0.9 as the criterion to distinguish between the two regimes, the relationship between the superficial velocities of the two phases was generated. The obtained transition lines were compared with visual observations collected from several published works in order to test the predictions of each model, and for different operating conditions. It was concluded in this paper that the slug liquid holdup models can be easily used for this purpose. Meanwhile, the prediction level of each model depends on the pipe diameter and the viscosity of the liquid phase.